Plasma power
If you've been following the "CO2 tank" thread, I may have caught a little of your attention when I "let slip" that I've been working on a plasma based design, but I suspect that not many people have been following it.
First things first - No, I'm not pissing around, it's a possibility.
It's not a reality yet, still a theory, that's why it's in this section here.
However, the better designs are very complicated, and none are particularly efficient - but you'd better believe they go like greased lightning.
I haven't got any pictures yet, but there are three basic principles I'm considering, all of which have some practicality issues.
I admit the ideas are a bit rough around the edges, I haven't been investing too much thought in the idea so far. If you find holes, I'm not that surprised. It was a half-baked idea that got a bit out of hand, and suddenly seemed feasible a few months back.
Basic heat generation with plasma
This is the simplest idea, simply creating a pressure wave by heating the air in a small chamber with plasma. The temperatures and pressures generated could be very seriously impressive, allowing supersonic velocities from barrels as short as about 4 inches.
For this, the chamber is basically a supercharged camera flash trigger, discharging a few kilojoules of electrical energy through the air in the chamber, giving new meaning to the words "Thunderstorm in a teacup".
Plasma channelling & containment
This is even more powerful, but requires numerous high flux magnets to achieve. This uses magnetic fields to control the plasma created to minimise heat loss, and direct the plasma from the chamber.
More powerful again, and would have an impressive looking muzzle blast.
Gauss/Plasma hybrid
The ultimate design I could come up with.
This would be exceptionally complicated to get to work, but it uses electromagnets to contain a small pocket of plasma within the barrel, and which it catapults along the barrel - completely bypassing the sound barrier. In a large and powerful enough design, this could put a light gas gun to shame on sheer velocity, but it would need a very serious capacitor bank.
Anyway, I'm going to mull over the idea for a few days, and see if I can come up with any more ideas - if you want to do the same, feel welcome.
First things first - No, I'm not pissing around, it's a possibility.
It's not a reality yet, still a theory, that's why it's in this section here.
However, the better designs are very complicated, and none are particularly efficient - but you'd better believe they go like greased lightning.
I haven't got any pictures yet, but there are three basic principles I'm considering, all of which have some practicality issues.
I admit the ideas are a bit rough around the edges, I haven't been investing too much thought in the idea so far. If you find holes, I'm not that surprised. It was a half-baked idea that got a bit out of hand, and suddenly seemed feasible a few months back.
Basic heat generation with plasma
This is the simplest idea, simply creating a pressure wave by heating the air in a small chamber with plasma. The temperatures and pressures generated could be very seriously impressive, allowing supersonic velocities from barrels as short as about 4 inches.
For this, the chamber is basically a supercharged camera flash trigger, discharging a few kilojoules of electrical energy through the air in the chamber, giving new meaning to the words "Thunderstorm in a teacup".
Plasma channelling & containment
This is even more powerful, but requires numerous high flux magnets to achieve. This uses magnetic fields to control the plasma created to minimise heat loss, and direct the plasma from the chamber.
More powerful again, and would have an impressive looking muzzle blast.
Gauss/Plasma hybrid
The ultimate design I could come up with.
This would be exceptionally complicated to get to work, but it uses electromagnets to contain a small pocket of plasma within the barrel, and which it catapults along the barrel - completely bypassing the sound barrier. In a large and powerful enough design, this could put a light gas gun to shame on sheer velocity, but it would need a very serious capacitor bank.
Anyway, I'm going to mull over the idea for a few days, and see if I can come up with any more ideas - if you want to do the same, feel welcome.
Does that thing kinda look like a big cat to you?
- ALIHISGREAT
- Staff Sergeant 3
- Posts: 1778
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ermm yeah i understand it all honest... but seriously it sounds like a very interesting project and a plasma cannon would be very cool. what kind of size would this thing be? and what would you use as the chamber? because it would have to be able to hold alot of pressure.. and one more thing... would it be handheld? ok i was lying... how easy would it be to make one?
What kind of pressure and temperature would we be looking at here Rag?
And when I read that thing about the gauss/plasma cannon hybrid beating a light gas gun for sheer velocity (i.e. >7km/s), I suddenly wanted to build one.
What kind of budget do you think this would require? Because if you can do the more difficult calculations and figure out the more complicated circuitry, I may just be able to build a prototype in the spring/summer. PM me if you're interested.
And when I read that thing about the gauss/plasma cannon hybrid beating a light gas gun for sheer velocity (i.e. >7km/s), I suddenly wanted to build one.
What kind of budget do you think this would require? Because if you can do the more difficult calculations and figure out the more complicated circuitry, I may just be able to build a prototype in the spring/summer. PM me if you're interested.
Spudfiles' resident expert on all things that sail through the air at improbable speeds, trailing an incandescent wake of ionized air, dissociated polymers and metal oxides.
I believe I've heard a very similar one before here. The difference was it was about vapourising material with electricity and using the resulting gas to propell a projectile...
...which has in fact been done by a military research group (who else ).
Linkage time:
The Light Gas Gun has a relation which is assisted by an electric arc to increase the temperature and pressure of the hydrogen gas used to propell the projectile
ECT is a plasma system which is what was brought up last time but I had doubts on it as it's not actually a propulsion system. It's a power boosting device for solid propellant systems
...and of course there is the unfinished and not fully detailed Powerlabs electrothermal gun which is basically a spark plug at the end of a cannon barrel. Mind you one picture shows hin pouring Acetone down the barrel so might be doing electrothermal-chemical shots too.
...which has in fact been done by a military research group (who else ).
Linkage time:
The Light Gas Gun has a relation which is assisted by an electric arc to increase the temperature and pressure of the hydrogen gas used to propell the projectile
ECT is a plasma system which is what was brought up last time but I had doubts on it as it's not actually a propulsion system. It's a power boosting device for solid propellant systems
...and of course there is the unfinished and not fully detailed Powerlabs electrothermal gun which is basically a spark plug at the end of a cannon barrel. Mind you one picture shows hin pouring Acetone down the barrel so might be doing electrothermal-chemical shots too.
Last edited by Hotwired on Mon Dec 24, 2007 5:43 pm, edited 3 times in total.
What are you planning to use for the arc? A MOT might work, but i doubt it, but a Marx Generator with MOT(s)?
A camera flash charging circuit and capacitor discharge system with the voltage multiplied by 100 is more like it
This is a bit off topic, but very interesting.
My Uncle in town is a senior manager of the University of Rochester's Laser lab, which if i'm not mistaken is the most powerful laser set up in the U.S.
"The OMEGA laser system. OMEGA stands 10 meters tall and is approximately 100 meters in length. This system delivers pulses of laser energy to targets in order to measure the resulting nuclear and fluid dynamic events. OMEGA's 60 laser beams focus up to 40,000 joules of energy onto a target that measures less than 1 millimeter in diameter in approximately one billionth of a second. At LLE scientists continue to research what will one day become a vast source of power using the ocean's ample storehouse of potential energy."
This is just a little info off of there website.
THE POINT: generating plasma is a promising way to produce energy. the only problem is it is only efficient when you get a controlled nuclear reaction.
My Uncle in town is a senior manager of the University of Rochester's Laser lab, which if i'm not mistaken is the most powerful laser set up in the U.S.
"The OMEGA laser system. OMEGA stands 10 meters tall and is approximately 100 meters in length. This system delivers pulses of laser energy to targets in order to measure the resulting nuclear and fluid dynamic events. OMEGA's 60 laser beams focus up to 40,000 joules of energy onto a target that measures less than 1 millimeter in diameter in approximately one billionth of a second. At LLE scientists continue to research what will one day become a vast source of power using the ocean's ample storehouse of potential energy."
This is just a little info off of there website.
THE POINT: generating plasma is a promising way to produce energy. the only problem is it is only efficient when you get a controlled nuclear reaction.
@DYI: Well, the gauss/plasma hybrid would require a lot of work, but the basic principle is very simple.
Gauss guns are very powerful relative to even hybrids for their size. A well built but moderate GG can generate a force on the steel projectile equivalent to a few thousand psi.
Take an air rifle. To get 10 to 20 joules of muzzle energy out of it, it needs a barrel of 12 to 24 inches. A gauss gun could do the same in about 2 to 4 inches if it was well built. However, the comparatively heavy projectile limits velocities.
The problem with this is that at low velocities, GGs have low efficiencies of only a few percent. But, as the velocity of the projectile increases, the efficiency of the gauss gun increases. When you hit about 100 m/s or so, the efficiencies become very respectable, of the order of 10% to 20%, increasing further as the velocity rises further. At 300 m/s, 50% or more isn't impossible. The difficulty is reaching this velocity in the first place.
However, if you replace the magnetic projectile with a plasma propellant which is very easily affected by magnetic field, and instead use a comparatively light projectile like an airsoft BB, moderately low energies have a high velocity attached to this, and hitting ultra efficient velocities becomes child's play. Of course, as the plasma is being given extra energy as it's accelerated by the magnetic field, it doesn't have to give up pressure to expand, or build it's own kinetic energy.
If my logic is correct, you could drag a pocket of plasma along the barrel at whatever speed, pushing a light projectile ahead of this. If the projectile fitted the barrel well enough, it wouldn't be impossible to force the system to drive the plasma faster to get even higher velocities.
As for a budget, I'm not sure - it depends on so many things - but it won't be competitive for value against the current varieties of spudgun (based on UK prices for components, but I know they're a lot cheaper in many other countries), of that I can be pretty sure.
Also, bear in mind, beating a LGG with an early prototype would be very hard, there will be things to sort out, and no-one will want to put too much into a huge bells and whistles cannon that would make the sound barrier look pedestrian just yet. I think a couple of hundred m/s would be an good start, and if the sound barrier could be beaten that would be an excellent start and proof of concept.
Won't be a walk in the park, but still, spudding needs some real innovation. Between everyone, we've walked most of the ground between the boundaries of compressed gas, combustion and potential/elastic energy, so I'm going exploring in the twin lands of plasma and electromagnetics.
@ALIHISGREAT: In the second two concepts, magnetics can be used to channel the plasma, minimising the requirements of the chamber. Still, I would still be looking at ceramic tubing for parts to handle both the potential for stray heat, and the requirement of some parts to be non-metallic.
@jon_89: Sort of, but you'd need a LOT more power.
Gauss guns are very powerful relative to even hybrids for their size. A well built but moderate GG can generate a force on the steel projectile equivalent to a few thousand psi.
Take an air rifle. To get 10 to 20 joules of muzzle energy out of it, it needs a barrel of 12 to 24 inches. A gauss gun could do the same in about 2 to 4 inches if it was well built. However, the comparatively heavy projectile limits velocities.
The problem with this is that at low velocities, GGs have low efficiencies of only a few percent. But, as the velocity of the projectile increases, the efficiency of the gauss gun increases. When you hit about 100 m/s or so, the efficiencies become very respectable, of the order of 10% to 20%, increasing further as the velocity rises further. At 300 m/s, 50% or more isn't impossible. The difficulty is reaching this velocity in the first place.
However, if you replace the magnetic projectile with a plasma propellant which is very easily affected by magnetic field, and instead use a comparatively light projectile like an airsoft BB, moderately low energies have a high velocity attached to this, and hitting ultra efficient velocities becomes child's play. Of course, as the plasma is being given extra energy as it's accelerated by the magnetic field, it doesn't have to give up pressure to expand, or build it's own kinetic energy.
If my logic is correct, you could drag a pocket of plasma along the barrel at whatever speed, pushing a light projectile ahead of this. If the projectile fitted the barrel well enough, it wouldn't be impossible to force the system to drive the plasma faster to get even higher velocities.
As for a budget, I'm not sure - it depends on so many things - but it won't be competitive for value against the current varieties of spudgun (based on UK prices for components, but I know they're a lot cheaper in many other countries), of that I can be pretty sure.
Also, bear in mind, beating a LGG with an early prototype would be very hard, there will be things to sort out, and no-one will want to put too much into a huge bells and whistles cannon that would make the sound barrier look pedestrian just yet. I think a couple of hundred m/s would be an good start, and if the sound barrier could be beaten that would be an excellent start and proof of concept.
Won't be a walk in the park, but still, spudding needs some real innovation. Between everyone, we've walked most of the ground between the boundaries of compressed gas, combustion and potential/elastic energy, so I'm going exploring in the twin lands of plasma and electromagnetics.
@ALIHISGREAT: In the second two concepts, magnetics can be used to channel the plasma, minimising the requirements of the chamber. Still, I would still be looking at ceramic tubing for parts to handle both the potential for stray heat, and the requirement of some parts to be non-metallic.
@jon_89: Sort of, but you'd need a LOT more power.
Does that thing kinda look like a big cat to you?
If I simply wanted to heat the air, I'd build a combustion.jon_89 wrote:Well if it is heat you will be using to get more pressure are there more simple ways to heat the air up? Like a blowtorch or does the temperature change have to be quick?
What I want to do is ionise it, because that's what allows you to mess with it magnetically.
Does that thing kinda look like a big cat to you?